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VACUUM DISTILLATION SYSTEMS |
Separate your products with CHEMIPROR high efficiency vacuum distillation systems at minimum cost.
CHEMIPROR high efficiency vacuum distillation systems are optimally designed to carry out separation of multiple components from organic mixtures at minimum cost.
Distillation is an important unit operation in the chemical industry where undesirable side reactions result in formation of unwanted products. Close boiling points of such impurities make it essential to distil the product under reduced pressure using the technique of fractionation using controlled reflux of the distillate.
CHEMIPROR high efficiency distillation systems are designed to separate out the various fractions in a given feed through variable reflux controlled by precisely designed reflux dividers.
Optimized process design ensures increased number of theoretical stages through the use of structured packing having high surface area to volume ratio.
PID based process control minimizes fluctuations in boiling and vapor temperatures during distillation to obtain fractions at high purity levels.
CHEMIPROR high efficiency vacuum distillation systems are designed and manufactured to perform with minimum leak-rates thus reducing the loads on the vacuum pumping devices.
CHEMIPROR high efficiency vacuum distillation systems are designed to separate multiple components in batch mode and binary components in continuous mode.
Investments on distillation systems are optimized to separate the components with minimum cost of energy. Such optimization is achieved through arriving at trade-off between fixed cost on the investment vs.cost of operation, bulk of which is towards source of thermal energy.
Trials on pilot scale distillation units are recommended for products where no data on vapor-liquid equilibrium is readily available. Design optimization for difficult separation problems is recommended through pilot plant trials.
Complete distillation-solution is provided to customers through Process & Instrumentation Diagrams developed from conceptual flow diagrams, general arrangement drawings, 3-D isometrics and plant /piping layouts.
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